Numerical comparison of CUSUM and shiryaev-roberts procedures for detecting changes in distributions

George V. Moustakides; Aleksey S. Polunchenko; Alexander G. Tartakovsky

doi:10.1080/03610920902947774

Numerical comparison of CUSUM and shiryaev-roberts procedures for detecting changes in distributions

George V. Moustakides
, Aleksey S. Polunchenko
, Alexander G. Tartakovsky

Mathematics and Statistics

Binghamton University

University of Patras
University of Southern California

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

The CUSUM procedure is known to be optimal for detecting a change in distribution under a minimax scenario, whereas the Shiryaev-Roberts procedure is optimal for detecting a change that occurs at a distant time horizon. As a simpler alternative to the conventional Monte Carlo approach, we propose a numerical method for the systematic comparison of the two detection schemes in both settings, i.e., minimax and for detecting changes that occur in the distant future. Our goal is accomplished by deriving a set of exact integral equations for the performance metrics, which are then solved numerically. We present detailed numerical results for the problem of detecting a change in the mean of a Gaussian sequence, which show that the difference between the two procedures is significant only when detecting small changes.

Original language	English
Pages (from-to)	3225-3239
Number of pages	15
Journal	Communications in Statistics - Theory and Methods
Volume	38
Issue number	16-17
DOIs	https://doi.org/10.1080/03610920902947774
State	Published - Jan 2009

Keywords

CUSUM test
Fredholm integral equation of the second kind
Numerical analysis
Quickest change-point detection
Sequential analysis
Shiryaev-Roberts test

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10.1080/03610920902947774

Cite this

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title = "Numerical comparison of CUSUM and shiryaev-roberts procedures for detecting changes in distributions",

abstract = "The CUSUM procedure is known to be optimal for detecting a change in distribution under a minimax scenario, whereas the Shiryaev-Roberts procedure is optimal for detecting a change that occurs at a distant time horizon. As a simpler alternative to the conventional Monte Carlo approach, we propose a numerical method for the systematic comparison of the two detection schemes in both settings, i.e., minimax and for detecting changes that occur in the distant future. Our goal is accomplished by deriving a set of exact integral equations for the performance metrics, which are then solved numerically. We present detailed numerical results for the problem of detecting a change in the mean of a Gaussian sequence, which show that the difference between the two procedures is significant only when detecting small changes.",

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KW - Quickest change-point detection

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IS - 16-17

ER -

Numerical comparison of CUSUM and shiryaev-roberts procedures for detecting changes in distributions

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Keywords

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